JP6625383B2 - Computer readable program, audio controller, and wireless audio system - Google Patents

Description

  The present invention relates to a technique for controlling output characteristics of an audio device.

  Patent Literature 1 discloses a wireless audio system that includes a plurality of wireless speakers classified into a plurality of groups and can reproduce different music data for each group. In this wireless audio system, for each group, a plurality of wireless speakers belonging to the group perform arbitration, and one wireless speaker is selected from these wireless speakers. Then, the selected wireless speakers become a group leader, receive operations from the user for a plurality of wireless speakers belonging to the same group, and transmit control signals to these wireless speakers. According to this wireless audio system, for example, by installing a plurality of wireless speakers in a plurality of rooms and setting the wireless speakers installed in the same room to the same group, different music data can be reproduced for each room. it can.

By the way, generally, the output characteristics (volume level, acoustic characteristics, sound field effect, etc.) of the reproduction signal of the music data are set to appropriate output characteristics by the user via the audio controller. Here, how to hear the music data output from the speaker changes depending on the use environment of the speaker, such as the size of the room where the speaker is installed, the installation position of the speaker in the room, and the like. Therefore, the user must find the appropriate output characteristics while listening to the music data output from the speaker. In particular, in the wireless audio system described in Patent Literature 1, since the use environment of the speakers differs for each group, the user has to search for an appropriate output characteristic for each group, which is complicated.

  On the other hand, Patent Literature 2 discloses an acoustic device that can automatically select and apply an optimal acoustic (frequency) characteristic for a use environment of a speaker. This acoustic device outputs a test signal from a speaker for each channel and collects the sound with a microphone. Then, the collected sound data is analyzed for each frequency, and an optimum acoustic characteristic is selected from the analysis result of each channel.

U.S. Pat. No. 7,987,294 JP 2014-150429 A

  However, in the audio device described in Patent Literature 2, music data cannot be reproduced during the reproduction of the test signal, and the reproduction of the music data must be waited until the reproduction of the test signals of all the channels is completed.

  Also, the output characteristics cannot be changed during the reproduction of the music data. For this reason, for example, there is a problem that the usability is poor, for example, when a wireless speaker that can be easily moved is used, particularly in a usage environment of the speaker in which the installation position and the installation room of the speaker are frequently changed.

  SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object the technology of changing the output characteristics of music data more efficiently with a simpler operation regardless of whether music data is being reproduced or not. Is to provide.

  In order to solve the above-mentioned problem, according to the present invention, a use environment of a speaker is specified from image data of a speaker installation area. Then, an output characteristic suitable for the specified use environment is selected, and the selected output characteristic is set as an output characteristic of the music data output from the speaker. For example, the ratio of the width of the wall behind the speaker to the width of the speaker is obtained from the image data of the speaker installation area in which the boundaries on both sides of the wall behind the speaker are aligned with both corners of the angle of view. The size of the speaker installation area may be specified based on the above, and this may be used as a speaker usage environment. Further, the speaker installation position in the installation area may be specified based on the display position of the speaker in the image data, and this may be used as the environment in which the speaker is used.

For example, the present invention is a computer-readable program,
The program causes the computer to:
Output characteristic storage means in which output characteristics of a reproduced signal are stored for each use environment of the speaker;
Imaging data acquisition means for acquiring imaging data of an installation area of the speaker including the speaker,
A use environment specifying unit that specifies a use environment of the speaker based on the image data acquired by the image data acquisition unit;
An output characteristic determining unit that determines an output characteristic stored in the output characteristic storage unit in association with the use environment specified by the use environment specifying unit as an output characteristic of a reproduction signal output from the speaker,
To function as an audio controller with,
The imaging data acquisition unit acquires, as first imaging data, imaging data of an installation area of the speaker, which is imaged with both boundaries of a wall behind the speaker aligned with both corners of an angle of view,
The usage environment specifying means obtains, as the usage environment of the speaker, a ratio between a width of a wall behind the speaker and a width of the speaker from the first image data, and installs the speaker based on the ratio. that identifies the size of the area.

Here, before Symbol usage environment specifying means as the use environment of the speaker, prior SL based on the display position of the speaker in the imaging data may identify the installation position of the speaker in the installation area.

Further, the imaging data acquisition means may acquire and acquire imaging data of an installation area of the speaker using a camera function of the computer.

  Further, the apparatus may further include output characteristic transmitting means for transmitting the output characteristic specified by the output characteristic determining means to a predetermined audio device such as a wireless speaker having an audio reproducing function.

  According to the present invention, the usage environment of the speaker is specified from the image data in the installation area of the speaker, and the output characteristic suitable for the specified usage environment is set as the output characteristic of the reproduction signal of the music data output from the speaker. Can set the output characteristics of the reproduction signal of the music data without taking time by merely taking an image of the speaker installation area. Therefore, according to the present invention, it is possible to change the output characteristics of music data more efficiently with a simpler operation regardless of whether music data is being reproduced or not.

FIG. 1 is a schematic configuration diagram of a wireless audio system according to one embodiment of the present invention. FIGS. 2A and 2B are diagrams for explaining a method of specifying the usage environment of the wireless speaker 1 from the image data of the room where the wireless speaker 1 is installed. FIG. 3 is a schematic functional configuration diagram of the wireless speaker 1. FIG. 4 is a flowchart for explaining the operation of the wireless speaker 1. FIG. 5 is a schematic functional configuration diagram of the audio controller 2. FIG. 6 is a diagram schematically illustrating an example of registered contents of the output characteristic storage unit 26. FIG. 7 is a flowchart for explaining the operation of the audio controller 2.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic configuration diagram of a wireless audio system according to the present embodiment.

  As shown in the figure, the wireless audio system according to the present embodiment includes a plurality of wireless speakers 1-1 to 1-3 (hereinafter, also simply referred to as wireless speakers 1) each having an ID, and a mobile phone having a camera function. It comprises an audio controller 2 as a terminal, a media server 3 and an access point 4 connected to a network 5. Here, it is assumed that the wireless speakers 1-1 to 1-3 are installed in individual rooms A to C, respectively.

  The wireless speaker 1 is connected to the audio controller 2 and the media server 3 via the access point 4, and acquires music data from the media server 3 according to a reproduction instruction received from the audio controller 2, and reproduces and outputs the music data. Further, according to the output setting instruction received from the audio controller 2, the output characteristic of the reproduction signal of the music data is set.

  The audio controller 2 is also connected to the wireless speaker 1 and the media server 3 via the access point 4, and performs playback including designation of music data selected by the user from music data stored in the media server 3. The instruction is transmitted to the output destination wireless speaker 1 of the music data. Further, the audio controller 2 specifies the use environment of the wireless speaker 1 from the image data in the room where the wireless speaker 1 is installed, and transmits an output setting instruction including designation of an output characteristic suitable for the use environment to the wireless speaker 1. .

  FIGS. 2A and 2B are diagrams for explaining a method of specifying the usage environment of the wireless speaker 1 from the image data of the room where the wireless speaker 1 is installed.

  In the present embodiment, first imaging data obtained by imaging the installation room of the wireless speaker 1 from the front of the wireless speaker 1 and second imaging data obtained by imaging the installation room of the wireless speaker 1 from the side of the wireless speaker 1 are used. Thus, the size and location of the installation room of the wireless speaker 1 are specified as the usage environment of the wireless speaker 1.

  First, the user uses the camera function of the audio controller 2 to create boundaries 601 and 602 between the wall 60 behind the wireless speaker 1 and the walls 61 and 62 on both sides thereof, as shown in FIG. The wireless speaker 1 is imaged from the front of the wireless speaker 1 in accordance with both corners 701 and 702 of the angle of view 70. Thereby, the audio controller 2 acquires the first imaging data. Here, a label 100 unique to the wireless speaker 1 is attached to the front of the wireless speaker 1.

  The audio controller 2 specifies the label 100 by performing image recognition processing on the first image data, and specifies the outline of the wireless speaker 1 to which the label 100 is attached. Then, the width (the number of pixels) T1 of the wireless speaker 1 is detected from the specified outline, and the ratio W1 / T1 of the width (the number of pixels) W1 of the first imaging data and the detected T1 is calculated. Then, based on the calculated ratio W1 / T1, the size (large / medium / small) of the width of the wall 60 behind the wireless speaker 1 is specified as the size of the width of the installation room of the wireless speaker 1. For example, if the ratio W1 / T1 is 10 or more, the size of the width of the room where the wireless speaker 1 is installed is “large”, and if it is less than 10 and 5 or more, the size of the width of the room where the wireless speaker 1 is installed is “medium”, 5 If it is less than the above, the width of the room in which the wireless speaker 1 is installed is set to “small”. Further, based on the display position of the wireless speaker 1 in the first image data, the position (center / corner) of the wireless speaker 1 with respect to the width of the installation room is specified. For example, when the first imaging data is divided into four areas in the width W1 direction, and the wireless speaker 1 exists in two central areas, the position of the wireless speaker 1 with respect to the width of the installation room is set to “center”. If it exists in other areas, the position of the wireless speaker 1 with respect to the width of the installation room is defined as a “corner”.

  Next, using the camera function of the audio controller 2, the user uses the camera function of the audio controller 2, as shown in FIG. 2 (B), to define the boundary 631, between the wall 61 on the side of the wireless speaker 1 and the walls 63, 60 on both sides thereof. The wireless speaker 1 is imaged by aligning 601 with both corners 701 and 702 of the angle of view 70. Thereby, the audio controller 2 acquires the second imaging data. Here, a label 100 is also attached to the side of the wireless speaker 1. The audio controller 2 specifies the label 100 by performing image recognition processing on the second image data, and specifies the outline of the wireless speaker 1 to which the label 100 is attached. Then, the width (number of pixels) T2 of the wireless speaker 1 is detected from the specified outline, and the ratio W2 / T2 of the width (number of pixels) W2 of the second image data and the detected T2 is calculated. Then, based on the calculated ratio W2 / T2, the width size (large / medium / small) of the wall 61 on the side of the wireless speaker 1 is specified as the depth size of the installation room of the wireless speaker 1. For example, if the ratio W2 / T2 is 10 or more, the depth size of the installation room of the wireless speaker 1 is “large”, and if it is less than 10 and 5 or more, the depth size of the installation room of the wireless speaker 1 is “medium”, 5 If it is less than the above, the depth of the installation room of the wireless speaker 1 is set to “small”. Further, based on the display position of the wireless speaker 1 in the second image data, the position (center / corner) of the wireless speaker 1 with respect to the depth of the installation room is specified. For example, when the second imaging data is divided into four areas in the width W2 direction and the wireless speaker 1 is present in two central areas, the position of the wireless speaker 1 with respect to the depth of the installation room is set to “center”. If it exists in the other area, the position with respect to the depth of the installation room of the wireless speaker 1 is defined as a “corner”.

  The audio controller 2 specifies the size of the installation room of the wireless speaker 1 based on the width and the depth of the installation room of the wireless speaker 1 specified as described above. For example, the size of the room where the wireless speaker 1 is installed is “large” if both the width and the depth are “large”, “small” if both are “small”, and “medium” otherwise. And Similarly, based on the position of the wireless speaker 1 specified as described above with respect to the width and depth of the installation room, the installation position of the wireless speaker 1 in the room is specified. For example, the installation position of the wireless speaker 1 in the room is “center” if both the width and the depth of the installation room are “center” and “corner” otherwise.

  Next, details of the wireless speaker 1 and the audio controller 2 of the wireless audio system according to the present embodiment will be described. Since the existing media server and access point can be used for the media server 3 and the access point 4, detailed description thereof is omitted.

  First, the wireless speaker 1 will be described.

  FIG. 3 is a schematic functional configuration diagram of the wireless speaker 1. The functional configuration of the wireless speaker 1 illustrated in FIG. 1 is, for example, a computer including a CPU, a memory, an auxiliary storage device such as a flash memory, a wireless communication device such as a wireless LAN adapter, and a speaker. This is realized by loading a predetermined program from an auxiliary storage device onto a memory and executing it.

  As shown, the wireless speaker 1 includes a wireless network interface unit 10, an instruction receiving unit 11, a music data acquisition unit 12, a music data storage unit 13, a music data reproduction unit 14, a speaker unit 15, an output unit A characteristic setting unit 16.

  The wireless network interface unit 10 is an interface for communicating with the audio controller 2 via the access point 4 and for communicating with the media server 3 connected to the network 5.

  The instruction receiving unit 11 receives various instructions to which the ID of the wireless speaker 1 is assigned from the audio controller 2 via the wireless network interface unit 10. Then, if the received instruction is a reproduction instruction accompanied by designation of music data, an acquisition instruction including designation of music data specified by the reproduction instruction is passed to the music data acquisition unit 12. If the received instruction is an output setting instruction including designation of a sound volume level, a sound (frequency) characteristic, and a sound field effect, the output setting instruction is passed to the output characteristic setting unit 16.

  When receiving the acquisition instruction from the instruction receiving unit 11, the music data acquisition unit 12 transmits a music data request including the designation of the music data specified by the acquisition instruction to the media server 3 via the wireless network interface unit 10. Then, the music data to be acquired is acquired from the media server 3.

  The music data storage unit 13 stores the music data acquired by the music data acquisition unit 12 from the media server 3.

  The music data reproduction unit 14 reproduces the music data stored in the music data storage unit 13 according to the volume level, the acoustic characteristics, and the sound field effect set by the output characteristic setting unit 16 and outputs the music data from the speaker unit 15. .

  When receiving the output setting instruction from the instruction receiving unit 11, the output characteristic setting unit 16 sets the volume level, the acoustic characteristic, and the sound field effect specified by the output setting instruction in the music data reproduction unit 14.

  FIG. 4 is a flowchart for explaining the operation of the wireless speaker 1. This flow is started when the wireless network interface unit 10 receives an instruction multicast-transmitted from the audio controller 2.

  First, the wireless network interface unit 10 determines whether or not the ID of the own wireless speaker 1 is given to the received instruction (S101).

  If the ID of the own wireless speaker 1 has not been assigned (NO in S101), this instruction is discarded (S102), and the process ends.

  On the other hand, when the ID of the own wireless speaker 1 is assigned, the instruction is passed to the instruction receiving unit 11. In response to this, the instruction receiving unit 11 determines whether the instruction received from the wireless network interface unit 10 is a reproduction instruction or an output setting instruction (S103).

  When the instruction received from the wireless network interface unit 10 is a reproduction instruction (“reproduction” in S103), the instruction reception unit 11 sends an acquisition instruction including the designation of the music data specified by the reproduction instruction to the music data acquisition unit. Hand over to 12.

  Upon receiving the acquisition instruction from the instruction receiving unit 11, the music data acquisition unit 12 transmits a music data request including the designation of the music data specified by the acquisition instruction to the media server 3 via the wireless network interface unit 10. (S104). When the music data is received from the media server 3, the music data is stored in the music data storage unit 13 (S105). In response to this, the music data reproduction unit 14 reproduces the music data stored in the music data storage unit 13 according to the volume level, the acoustic characteristics, and the sound field effect set by the output characteristic setting unit 16, and the speaker unit 15 (S106).

  On the other hand, if the instruction received from the wireless network interface unit 10 is an output setting instruction (“output setting” in S103), the volume level, acoustic characteristics, and sound field effect specified by the output setting instruction are reproduced as music data. It is set in the section 14 (S107). Thereby, thereafter, the music data reproduction unit 14 reproduces the music data stored in the music data storage unit 13 in accordance with the volume level, acoustic characteristics, and sound field effect newly set by the output characteristic setting unit 16, Output from the speaker unit 15.

  Next, the audio controller 2 will be described.

  FIG. 5 is a schematic functional configuration diagram of the audio controller 2. The functional configuration of the audio controller 2 shown in this figure includes, for example, a CPU, a memory, an auxiliary storage device such as a flash memory, an input / output device such as a touch panel, a display, a pointing device, and a wireless communication device such as a wireless LAN adapter. In a portable computer such as a smart phone or a tablet PC equipped with a CPU and a camera, the processing is realized by the CPU loading a predetermined program from an auxiliary storage device onto a memory and executing the program.

  As shown, the audio controller 2 includes a wireless network interface unit 20, a graphical user interface unit 21, a music list acquisition unit 22, a reproduction instruction transmission unit 23, an imaging data acquisition unit 24, and a use environment identification unit 25. , An output characteristic storage unit 26, an output characteristic determination unit 27, and an output setting instruction transmission unit 28.

  The wireless network interface unit 20 is an interface for communicating with the wireless speaker 1 via the access point 4 and for communicating with the media server 3 connected to the network 5.

  The graphical user interface unit 21 is an interface for displaying information and receiving various operations from a user.

  The music list obtaining unit 22 obtains a music list that is a list of music data stored in the media server 3 from the media server 3 via the wireless network interface unit 20, and displays the obtained music list in a graphical user interface unit. 21.

  The reproduction instruction transmission unit 23 transmits, from the wireless network interface unit 20, a reproduction instruction accompanied by designation of the music data to be reproduced and the ID of the output destination wireless speaker 1 by multicast.

  The imaging data acquisition unit 24 includes first imaging data (see FIG. 2 (A)) and second imaging data (see FIG. 2 (B)) of the installation room of the wireless speaker 1 which is imaged by the camera function of the audio controller 2. ) To get.

  The use environment specifying unit 25 uses the first and second imaging data acquired by the imaging data acquisition unit 24 to determine the size of the installation room of the wireless speaker 1 and the installation position of the wireless speaker 1 using the wireless speaker 1. Identify as environment.

  The output characteristic storage unit 26 stores information indicating the correspondence between the use environment and the output characteristics for each wireless speaker 1. FIG. 6 is a diagram schematically illustrating an example of registered contents of the output characteristic storage unit 26.

  As illustrated, the output characteristic storage unit 26 stores a table 260 for each wireless speaker 1 in association with the ID of the wireless speaker 1. The table 260 stores, for each use environment of the wireless speaker 1, a record 268 of output characteristics suitable for the use environment. The record 268 has a field 261 in which a use environment is registered, and a field 262 in which output characteristics are registered. The field 261 has a subfield 263 in which the size of the installation room of the wireless speaker 1 is registered, and a subfield 264 in which the installation position of the wireless speaker 1 is registered. A field 262 includes a subfield 265 in which a volume level is registered, a subfield 266 in which acoustic characteristics (output levels of the high, middle, and low ranges) are registered, and a sound field effect (a phase difference between channels). (Strong and weak) are registered.

  The output characteristic determining unit 27 refers to the table 260 stored in the output characteristic storage unit 26 in association with the ID of the output destination wireless speaker 1, and associates the output environment with the use environment specified by the use environment specifying unit 25. The output characteristic is specified, and the output characteristic is determined as the output characteristic of the output destination wireless speaker 1.

  The output setting instruction transmitting unit 28 transmits, from the wireless network interface unit 20, the output setting instruction accompanied by the designation of the output characteristic determined by the output characteristic determining unit 27 and the ID of the output destination wireless speaker 1 by multicast.

  FIG. 7 is a flowchart for explaining the operation of the audio controller 2. This flow is started when the graphical user interface unit 21 receives an operation from the user.

  First, the graphical user interface unit 21 analyzes the operation content received from the user (S201).

  If the operation received from the user is a music list acquisition operation (“acquisition operation” in S201), the graphical user interface unit 21 notifies the music list acquisition unit 22 of the fact.

  In response, the music list obtaining unit 22 transmits a music list request to the media server 3 via the wireless network interface unit 20 (S202). Then, the music list obtaining unit 22 obtains a music list of the music data stored in the media server 3 from the media server 3, and displays the obtained music list on the graphical user interface unit 21 (S203).

  In addition, if the operation received from the user is a reproduction operation involving designation of the music data to be reproduced and the ID of the output destination wireless speaker 1 (“reproduction operation” in S201), the graphical user interface unit 21 reproduces that fact. The instruction transmission unit 23 is notified.

  In response to this, the reproduction instruction transmitting unit 23 generates a reproduction instruction accompanied by specification of the music data to be reproduced specified by the reproduction operation and the ID of the output destination wireless speaker 1. Then, the reproduction instruction is multicast transmitted from the wireless network interface unit 20 (S204).

  If the operation received from the user is an output setting operation accompanied by designation of the ID of the output destination wireless speaker 1 (“output setting operation” in S201), the graphical user interface unit 21 notifies the imaging data acquisition unit 24 of the fact. Notify

  In response to this, the imaging data acquisition unit 24 allows the user to use the camera function of the audio controller 2 to image the room where the wireless speaker 1 is installed, and obtains the first imaging data (see FIG. 2A) and the second imaging data. The imaging data (see FIG. 2B) is obtained (S205). Then, the acquired first and second imaging data are transferred to the use environment specifying unit 25 together with the ID of the output destination wireless speaker 1.

  Next, as described with reference to FIG. 2A, the use environment specifying unit 25 uses the first image data received from the image data acquisition unit 24 to determine the size of the width of the room where the wireless speaker 1 is installed. , And the position of the wireless speaker 1 with respect to the width of the installation room. Similarly, as described with reference to FIG. 2B, the depth of the installation room of the wireless speaker 1 and the installation of the wireless speaker 1 are determined using the second imaging data received from the imaging data acquisition unit 24. Identify location relative to room depth. As the usage environment of the wireless speaker 1, the size of the installation room of the wireless speaker 1 is specified based on the width and the depth of the installation room of the wireless speaker 1, and the width and the depth of the installation room of the wireless speaker 1 are specified. Then, the installation position of the wireless speaker 1 in the room is specified based on the position (S206). Then, the use environment specifying unit 25 passes the use environment of the wireless speaker 1 specified as described above to the output characteristic determination unit 27 together with the ID of the output destination wireless speaker 1.

  Next, the output characteristic determining unit 27 uses the use environment received from the use environment specifying unit 25 as a key and associates the output environment with the ID of the output destination wireless speaker 1 received from the use environment specifying unit 25 to the output characteristic storage unit 26. The record 268 is searched from the stored table 260. Specifically, the record 268 in which the size of the installation room of the wireless speaker 1 and the installation position of the wireless speaker 1 included in the use environment included in the use environment received from the use environment specifying unit 25 are registered in the subfields 263 and 264. Search for. Then, the output characteristics registered in the field 262 of the searched record 268 are determined as the output characteristics of the output destination wireless speaker 1 (S207). Then, the determined output characteristics are transferred to the output setting instruction transmitting unit 28 together with the ID of the output destination wireless speaker 1.

  Next, the output setting instruction transmitting unit 28 generates an output setting instruction accompanied by designation of the output characteristic received from the output characteristic determining unit 27 and the ID of the output destination wireless speaker 1. Then, this output setting instruction is multicast transmitted from the wireless network interface unit 20 (S208).

  The embodiment of the present invention has been described above.

  In the present embodiment, the use environment of the wireless speaker 1 is specified from the image data (first and second image data) of the room where the wireless speaker 1 is installed, and the output characteristics suitable for the specified use environment are determined. 1 is set to the output characteristic of the music data output from the device 1. For this reason, the user can set the output characteristic of the music data only by imaging the room where the wireless speaker 1 is installed. Here, since the output characteristics are determined without using a test signal or the like, the output characteristics of the music data can be set in a shorter time, unlike the conventional technology that requires time to reproduce all the test signals. Therefore, according to the present embodiment, it is possible to more efficiently change the output characteristics of music data with a simpler operation.

  Further, since a test signal or the like is not used to determine the output characteristics, the setting of the output characteristics of the music data can be changed without stopping the reproduction of the music data being reproduced, which is convenient.

  It should be noted that the present invention is not limited to the above embodiment, and various modifications can be made within the scope of the gist.

  For example, in the above embodiment, as shown in FIG. 2A, the audio controller 2 provides the user with the boundaries 601 and 602 between the wall 60 behind the wireless speaker 1 and the walls 61 and 62 on both sides thereof. The first imaging data is obtained by causing the wireless speaker 1 to take an image in accordance with the two corners 701 and 702 of the angle of view 70. However, the present invention is not limited to this. By causing the user to image the wireless speaker 1 by adjusting both ends of the horizontal width of the listening area where the user wants to enjoy the music to the two corners 701 and 702 of the angle of view 70, the first image data is obtained. May be acquired.

  Similarly, as shown in FIG. 2B, the audio controller 2 gives the user the boundaries 631 and 601 between the wall 61 on the side of the wireless speaker 1 and the walls 63 and 60 on both sides of the wireless speaker 1 so that the angle of view 70 By imaging the wireless speaker 1 in accordance with both corners 701 and 702, second imaging data is obtained. However, the present invention is not limited to this. By causing the user to image the wireless speaker 1 by adjusting both ends of the width in the depth direction of the listening area where the user wants to enjoy the music to the two corners 701 and 702 of the angle of view 70, the second imaging data is obtained. May be obtained.

  If there is no wall behind and / or on the side of the wireless speaker 1, the user inputs the fact to the audio controller 2, and the usage environment specifying unit 25 sets the usage environment of the wireless speaker 1 to, for example, an open space. It may be specified. If output characteristics suitable for various types of open spaces such as outdoors are stored in advance in the output characteristic storage unit 26, the output characteristic determination unit 27 associates the output characteristics with the use environment specified by the use environment specification unit 25. The specified output characteristic can be specified from the output characteristic storage unit 26.

  Further, in the above embodiment, the size of the room in which the wireless speaker 1 is installed is determined from the room width and the size of the room depth. The size of the ceiling height may be further specified by including it in any of the data, and the size of the room where the wireless speaker 1 is installed may be specified from the room width, the room depth, and the size of the ceiling height.

  In the above embodiment, one of the first imaging data and the second imaging data may be omitted. In this case, the usage environment of the wireless speaker 1 may be specified from a single piece of image data, or the usage environment of the wireless speaker 1 may be specified by receiving auxiliary information from the user via the graphical user interface unit 21. You may. In the former case, the width or depth of the installation room of the wireless speaker 1 specified by the single image data becomes the size of the installation room of the wireless speaker 1, and the wireless speaker 1 specified by the single image data The position with respect to the width or depth of the installation room is the installation position of the wireless speaker 1. In the latter case, information to be specified from the omitted imaging data is received from the user.

  The audio controller 2 also superimposes the image data and the result of the image recognition processing (the position of the label 100 and the outline of the wireless speaker 1) on the graphical user interface unit 21, and gives the position of the label 100 and the wireless speaker 1 from the user. May be modified. Further, the user may be able to specify each wall boundary on the image of the installation room of the wireless speaker 1 displayed on the graphical user interface unit 21.

  Further, in the above embodiment, the audio controller 2 receives the ID of the output destination wireless speaker 1 from the user via the graphical user interface unit 21, but the present invention is not limited to this. For example, a QR code (registered trademark) indicating the ID of the wireless speaker 1 is attached to the wireless speaker 1 as a label 100 unique to the wireless speaker 1 or separately from the label 100, and this is attached to the audio controller 2. The ID of the wireless speaker 1 may be obtained by taking an image with a camera. Alternatively, the audio controller 2 and the wireless speaker 1 may be provided with a short-range wireless communication function such as RFID, and the wireless speaker 1 may transmit the ID of the wireless speaker 1 to the audio controller 2 using the short-range wireless communication. Good.

  Further, in the above embodiment, the audio controller 2 multicast-transmits various instructions to each of the wireless speakers 1-1 to 1-3, but instead of the multicast transmission, for example, the audio controller 2 may perform a unicast transmission. Good.

  Further, in the above embodiment, the case where the audio controller 2 is connected to the network 5 via the wireless network has been described as an example. However, the audio controller 2 is directly connected to the network 5 without passing through the wireless network. It may be connected. Further, the audio controller 2 may be directly wirelessly connected to the wireless speaker 1 without passing through the access point 4.

  Further, in the above embodiment, the media server 3 is connected to the network 5, but the media server 3 may be connected to a wireless network. Further, the media server 3 may be built in the audio controller 2. When the media server 3 is built in the audio controller 2, the wireless speaker 1 acquires music data from the audio controller 2. When the media server 3 is built in any one of the audio controllers 2, the other wireless speakers 1 acquire music data from the audio controller 2 in which the media server 3 is built.

  Further, in the above embodiment, the audio controller 2 transmits the instruction to the wireless speaker 1, but the present invention is not limited to this. What is necessary is just to transmit an instruction to a predetermined audio device having a function of reproducing music data.

  1, 1-1 to 1-3: wireless speaker, 2: audio controller, 3: media server, 4: access point, 5: network, 10: wireless network interface unit, 11: instruction receiving unit, 12: music data acquisition Unit, 13: music data storage unit, 14: music data reproduction unit, 15: speaker unit, 16: output characteristic setting unit, 20: wireless network interface unit, 21: graphical user interface unit, 22: music list acquisition unit, 23 : Playback instruction transmission unit, 24: imaging data acquisition unit, 25: use environment specification unit, 26: output characteristic storage unit, 27: output characteristic determination unit, 28: output setting instruction transmission unit, 100: label

Claims (8)

A readable program computer,
The program causes the computer to:
Output characteristic storage means in which output characteristics of a reproduced signal are stored for each use environment of the speaker;
Imaging data acquisition means for acquiring imaging data of an installation area of the speaker including the speaker,
A use environment specifying unit that specifies a use environment of the speaker based on the image data acquired by the image data acquisition unit;
Output characteristic determining means for determining an output characteristic stored in the output characteristic storage means in association with the use environment specified by the use environment specifying means, as an output characteristic of a reproduction signal output from the speaker;
Function as an audio controller with
The imaging data acquisition unit acquires, as first imaging data, imaging data of an installation area of the speaker imaged with the boundaries on both sides of a wall behind the speaker aligned with both corners of the angle of view,
The use environment specifying means obtains a ratio between a width of a wall behind the speaker and a width of the speaker from the first image data as a use environment of the speaker, and installs the speaker based on the ratio. A computer-readable program that specifies the size of an area. A computer readable program according to claim 1 ,
The imaging data acquisition unit further acquires, as second imaging data, imaging data of the installation area of the speaker, which is imaged with the boundaries on both sides of the wall on the side of the speaker aligned with both corners of the angle of view. ,
The usage environment specifying means further obtains, as the usage environment of the speaker, a ratio between a width of a wall on a side of the speaker and a depth of the speaker from the second image data, the ratio and the first ratio. A computer-readable program for specifying the size of an installation area of the speaker based on the ratio obtained from imaging data. A computer readable program according to claim 1 ,
Before Symbol usage environment specifying means as the use environment of the speaker, a computer based on the display position of the speaker in the first imaging data, and identifies the installation position of the speaker in the installation area Program readable by. A computer readable program according to claim 2 ,
Before Symbol usage environment specifying means as the use environment of the speaker, on the basis of the first display position of the speaker in the imaging data and the second imaging data each, the installation position of the speaker in the installation area A computer-readable program characterized by the following: A computer readable program according to any one of claims 1 to 4 ,
The computer readable program, wherein the imaging data acquisition unit captures and acquires imaging data of an installation area of the speaker using a camera function of the computer. A computer-readable program according to any one of claims 1 to 5 ,
The computer readable program, further comprising: an output characteristic transmitting unit that transmits the output characteristic specified by the output characteristic determining unit to a predetermined audio device. An audio controller that determines output characteristics of a reproduction signal output from a speaker,
Output characteristic storage means in which output characteristics of a reproduction signal are stored for each use environment of the speaker,
Imaging data acquisition means for acquiring imaging data of an installation area of the speaker including the speaker,
A use environment specifying unit that specifies a use environment of the speaker based on the image data acquired by the image data acquisition unit;
Output characteristic determining means for determining an output characteristic stored in the output characteristic storage means in association with the use environment specified by the use environment specifying means, as an output characteristic of a reproduction signal output from the speaker;
Output characteristic transmitting means for transmitting the output characteristic specified by the output characteristic determining means to a predetermined audio device ,
The imaging data acquisition unit acquires, as first imaging data, imaging data of an installation area of the speaker imaged with the boundaries on both sides of a wall behind the speaker aligned with both corners of the angle of view,
The use environment specifying means obtains a ratio between a width of a wall behind the speaker and a width of the speaker from the first image data as a use environment of the speaker, and installs the speaker based on the ratio. audio controller, characterized in that that identifies the size of the area. An audio controller according to claim 7 ,
And a wireless speaker having an audio playback function,
The output characteristic transmitting means of the audio controller,
Wirelessly transmitting the output characteristic specified by the output characteristic determining means to the wireless speaker,
The wireless speaker,
Output characteristic receiving means for receiving output characteristics wirelessly transmitted from the audio controller,
A wireless audio system, comprising: output characteristic setting means for setting an output characteristic received by the output characteristic receiving means to an output characteristic of a reproduction signal of music data output from the wireless speaker.

Images